Abstract

The thymus is a central lymphoid organ critical for the development and maintenance of an effective peripheral T cell repertoire. Most important, it provides a specialized environment for the selection of rearranged clones that will function appropriately in the adaptive immune response. T cell maturation progresses through well-defined stages in which proliferation, differentiation, and apoptosis are central to the selection of a functional TCR repertoire. During mammary tumorigenesis, there is a profound thymus involution associated with a severe depletion of the most abundant subset of thymocytes, CD4+CD8+ double positive (DP) immature cells. Thymic involution has been observed in several model systems; including graft-vs-host disease, aging, and tumor development, however, the precise mechanisms involved in this phenomenon remain poorly defined. Previous results from our laboratory have reported that the severe thymic atrophy and impaired T cell development seen in mammary tumor bearers are associated with a profound decrease in thymus size accompanied by a disrupture of the normal thymic architecture, an arrest in at least two steps of T cell differentiation, and an increase in thymic apoptosis in tumor-bearers. In our studies we have used the murine D1-DMBA-3 mammary tumor model to elucidate the exact mechanisms associated to the tumor-induced impaired T cell development and thymic involution. We have found that the disruption in the thymic architecture of tumor bearers appears to be related to a downregulated expression of hepatocyte growth factor in the medullar zone of the thymus. Moreover, the progressive increase of apoptosis in thymocytes during the tumor development is associated to a downregulation of Bcl-xL and A1, two important molecules that control programmed cell death. Additionally, the impaired T cell development observed during the tumor-induced thymic involution is associated to a profound decrease of IL-7 and IL-15, two crucial cytokines involved in T cell development; a downregulation in the expression of most of the Jak/Stat signaling proteins; and an increased expression of several suppressor of cytokine signaling (SOCS) members. Our data provides the bases for understanding the mechanisms associated to the impaired T cell development and thymic involution present in the thymuses of tumor bearers.